CLSC 3033 MEDICAL MICROBIOLOGY
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Transcript CLSC 3033 MEDICAL MICROBIOLOGY
MLAB 2434:
Microbiology
Keri Brophy-Martinez
The Gram-Negative Cocci
Families
Neisseriaceae
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Neisseria
Kingella
Eikenella
Simonsiella
Alysiella
Moraxellaceae
◦ Moraxella
◦ Acinetobacter
General Characteristics:
Neisseria Species
Aerobic, gram-negative diplococci
Nonmotile
Oxidase positive
Catalase positive
Fastidious, capnophilic
Neisseria Species and Moraxella
catarrhalis
Habitat
◦ Upper respiratory tract
◦ Genitourinary tract
◦ Alimentary(Digestive) tract
Primary pathogens:
◦ N. gonorrhoeae
◦ N. meningitidis
Virulence Factors
Fimbrae (common pili)◦ enhance the ability of bacterial
cells to adhere to host cells
and to each other
Lipooligosaccharide:
◦ endotoxin involved in damage
to host tissue
Capsule
Cell membrane
proteins
IgA protease◦ cleaves IgA on mucosal
surfaces
Clinical Conditions:
Neisseria gonorrhoeae
Pyogenic (pus-producing) infection of
columnar and transitional epithelial cells
◦ urethral, endocervix, anal canal, pharynx,
and conjunctiva
Incubation period: 2 to 7 days
Transmitted by sexual contact
Clinical Infections:
Neisseria gonorrhoeae
Disease in the male
Disease in the female
◦ 95% show symptoms of
acute infection
◦ 20% to 80% are
asymptomatic
◦ Symptoms include dysuria,
urethral discharge
◦ Symptoms include:
Burning or frequency of
urination, vaginal discharge,
fever and abdominal pain
◦ Complications include
epididymitis and urethral
stricture, and prostatitis
◦ Complications include pelvic
inflammatory disease (PID),
sterility and ectopic
pregnancy
Clinical Conditions:
Neisseria gonorrhoeae:
Disseminated gonococcal disease
◦ Acute form has the following symptoms: fever, chills, malaise,
intermittent bacteremia, and skin lesions
◦ If untreated will progress to septic joint form of the disease
(inflamed joints, swollen, hot, full of pus and fluid)
◦ Gonococcal arthritis occurs as a result of disseminated
gonococcal bacteremia
Clinical Conditions:
Neisseria gonorrhoeae:
Disease in children
◦ In infancy, an eye infection (ophthalmia neonatorum)
may occur during vaginal delivery
◦ May cause blindness if not treated
◦ Infection is preventable with the application of
antibiotic eye drops at birth
Extragenital infections
◦ Pharyngitis
◦ Anorectal infections
Laboratory Diagnosis:
Neisseria gonorrhoeae
Clinical specimens
◦ Genital sites
Female: endocervix
Male: urethra
◦ Anal
◦ Oral/pharyngeal
◦ Eye
◦ Blood/joint fluids
Specimen Collection
◦ Dacron/ Rayon swabs preferred
◦ Swabs transported in Amies medium with
charcoal
◦ Inoculate media within 6 hours of collection,
avoid drying
Transport Media
Transgrow or JEMBEC
JEMBEC= James E Martin Biological Environmental
Chamber
JEMBEC
Laboratory Diagnosis:
Neisseria gonorrhoeae
Morphology
◦ Gram-negative, kidneybean–shaped
diplococci
Laboratory Diagnosis:
Neisseria gonorrhoeae
Media Selection
Chocolate agar
◦ Subject to overgrowth of normal flora
Thayer-Martin agar is chocolate agar with
vancomycin, colistin, and nystatin
MTM contains the above plus trimethoprin
Specimen MUST be plated on warmed media ASAP
Incubation
Inoculated culture media must
be incubated at 350 C in 3% to
5% CO2 or candle jar
Candle jar must use white wax
candles
Laboratory Diagnosis:
Neisseria gonorrhoeae
Colony morphology on
modified Thayer-Martin
(MTM) agar
◦ Small, beige- gray
◦ Translucent, smooth
Fresh growth must be
used for testing, because
N. gonorrhoeae produces
autolytic enzymes
Laboratory Diagnosis:
Neisseria gonorrhoeae
◦ Oxidase Test
Test on filter paper or directly on plate
Oxidase reagent =Dimethyl or tetramethyl oxidase reagent
Violet-purple color indicates a positive result
Laboratory Diagnosis:
Neisseria gonorrhoeae
Carbohydrate utilization
Cystine trypticase agar (CTA)
◦ Contain 1% of a single
carbohydrate
Glucose, maltose, lactose,
sucrose
◦ Phenol red is pH indicator
Read in 24-72 hours
Laboratory Diagnosis:
Neisseria gonorrhoeae
Immunologic methods
◦ Use colonies from primary plate
◦ Organisms do not need to be viable
Fluorescent antibody technique
Coagglutination
Non-culture methods
◦ Use direct patient specimen
◦ ELISA, nucleic acid probe, and PCR testing
◦ Expensive; usually used in high-risk populations with large
volume of testing
◦ Unable to perform on all sources
Antimicrobial Resistance:
Neisseria gonorrhoeae
PPNG = Penicillinase Producing Neisseria gonorrhoeae
◦ First seen in 1976
◦ Plasmid-mediated
◦ Beta-lactamase testing should always be done on N.
gonorrheoae
Treatment = Penicillin
Tetracycline if beta-lactamase positive strain. Can also
use cephalosporins and flouroquinolones
Neisseria meningitidis
Commensal of carriers in the nasopharynx
Cross the epithelium and enter the circulatory system
◦ Primarily affects the immunocompromised, young
children, trauma victims
Leads to septicemia and localization to the
meninges causing inflammation of the brain
Meningitis
Highly fatal (25% even if treated)
◦ Encapsulated strains A, B, C,Y, W-135
Virulence Factors:
Neisseria meningitidis
Pili
Polysaccharide capsule
Cellular membrane proteins
Lipooligosaccharide/endotoxin
Clinical Infections:
Neisseria meningitidis:
Bacterial meningitis
◦ Transmission is by respiratory droplets and requires both
close contact (ex: dormitories, military barracks, in
institutions) and lack of specific antibody (susceptibility)
◦ Symptoms include fever, headache, stiff neck, nausea,
vomiting, and purulent meningitis with increased WBCs
◦ Serotypes B and C most common in US
Other infections include meningococcemia, pneumonia,
purulent arthritis, & endophthalmitis
May be seen in genital tract with oral-genital contact
Clinical Infections:
Neisseria meningitidis
Hemorrhage in the adrenal
glands in WaterhouseFridericksen syndrome
Laboratory Diagnosis:
Neisseria meningitidis
Identification
◦ Examine direct smear from
CSF for intra & extra
cellular g- dc
◦ Examine smear for halo
◦ Other body sites include
nasopharyngeal swabs,
sputum, and urogenital
specimens
Gram-stained smear of CSF
showing the extra cellular and
intracellular gram-negative
diplococci
Laboratory Diagnosis:
Neisseria meningitidis
Examine cultures on
blood agar & chocolate
agar after incubation in
increased CO2
Colony Morphology
◦ Small
◦ Tan-grey color
◦ Smooth
Neisseria meningitidis growing
on sheep blood agar (right) and
chocolate agar (left)
Laboratory Diagnosis:
Neisseria meningitidis
◦ Oxidase-test positive
◦ Conventional CTA
carbohydrates for biochemical
identification (glucose+ and
maltose+)
◦ Immunologic methods
Antibiotic Therapy:
Neisseria meningitidis
Penicillin
Other options: rifampin or sulfonamide
Vaccine
◦ For use with people aged 11-55
◦ Does not protect against all serotypes
Nonpathogenic Neisseria species
Normal flora of upper respiratory tract
Some members
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Neisseria cinera
Neisseria lactamica
Neisseria mucosa
Neisseria sicca
Neisseria subflava
Moraxella catarrhalis
Previously known as Branhamella catarrhalis
Normal commensal of the respiratory tract
Has become an important opportunistic pathogen
◦ Predisposing factors
Advanced age, Immunodeficiency, Neutropenia,
Other debilitating diseases
Clinical infections
◦ Pneumonia
◦ Sinusitis
◦ Otitis media (3rd most common cause)
Virulence factors:
Moraxella catarrhalis
Endotoxin
Pili
Beta-lactamase
Laboratory Diagnosis:
Moraxella catarrhalis
Direct smear from an otitis
media sample showing
intracellular gram-negative
diplococci
Laboratory Diagnosis:
Moraxella catarrhalis
Colonies appear smooth with a grayishwhite color
When colonies pushed with loop, they
“scoot” across media
Moraxella catarrhalis
growing on chocolate agar
after 24 hours of incubation
Laboratory Diagnosis :
Moraxella catarrhalis
Oxidase positive
Catarrhalis Disc
◦ Positive= blue-gren
All CTA sugars negative
Produce beta- lactamase
Identification of
Selected Neisseria Species & Moraxella
Species
BAP
Growth
R.T
T/M
Acid production
Gluc Mal Lac Suc
N. gonorrhoeae
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N. meningitidis
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N. lactamica
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N. sicca
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M. catarrhalis
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References
Engelkirk, P., & Duben-Engelkirk, J. (2008). Laboratory
Diagnosis of Infectious Diseases: Essentials of Diagnostic
Microbiology . Baltimore, MD: Lippincott Williams and Wilkins.
http://www.awinhospitalproducts.com/product/35collection-swab-amies-medium-w-charcoal-wwcsam-3450
https://new.fishersci.com/ecomm/servlet/fsproductdetail_10
652_606366_29104_-1_0
https://picasaweb.google.com/pia8628/0411microlab#559610
4725803822690/
Mahon, C. R., Lehman, D. C., & Manuselis, G. (2011). Textbook
of Diagnostic Microbiology (4th ed.). Maryland Heights, MO:
Saunders.